Abstract
Background. Lung transplantation is the optimal treatment for end stage lung disease. Donor shortage necessitates single-lung transplants (SLT), yet minimal data exists regarding regional ventilation in diseased versus transplanted lung measured by Electrical Impedance Tomography (EIT). Method. We aimed to determine regional ventilation in six SLT outpatients using EIT. We assessed end expiratory volume and tidal volumes. End expiratory lung impedance (EELI) and Global Tidal Variation of Impedance were assessed in supine, right lateral, left lateral, sitting, and standing positions in transplanted and diseased lungs. A mixed model with random intercept per subject was used for statistical analysis. Results. EELI was significantly altered between diseased and transplanted lungs whilst lying on right and left side. One patient demonstrated pendelluft between lungs and was therefore excluded for further comparison of tidal variation. Tidal variation was significantly higher in the transplanted lung for the remaining five patients in all positions, except when lying on the right side. Conclusion. Ventilation to transplanted lung is better than diseased lung, especially in lateral positions. Positioning in patients with active unilateral lung pathologies will be implicated. This is the first study demonstrating changes in regional ventilation, associated with changes of position between transplanted and diseased lung.
Highlights
Single-lung transplants are becoming more common with the dearth of suitable lung donors
The End expiratory lung impedance (EELI) results from the diseased lung were 670 arbitrary units [AU] lower on average
We assessed the regional ventilation in each lung using Electrical Impedance Tomography (EIT) in five different positions after single-lung transplantation
Summary
Single-lung transplants are becoming more common with the dearth of suitable lung donors These patients have a challenging physiology with competing requirements of a diseased and a relatively nondiseased lung simultaneously after transplant. Donor shortage necessitates single-lung transplants (SLT), yet minimal data exists regarding regional ventilation in diseased versus transplanted lung measured by Electrical Impedance Tomography (EIT). End expiratory lung impedance (EELI) and Global Tidal Variation of Impedance were assessed in supine, right lateral, left lateral, sitting, and standing positions in transplanted and diseased lungs. Tidal variation was significantly higher in the transplanted lung for the remaining five patients in all positions, except when lying on the right side. Positioning in patients with active unilateral lung pathologies will be implicated This is the first study demonstrating changes in regional ventilation, associated with changes of position between transplanted and diseased lung
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